US5698642A - Process and apparatus for the gas-phase polymerization of α-olefins - Google Patents

Process and apparatus for the gas-phase polymerization of α-olefins Download PDF

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Publication number: US5698642A
Authority: US; United States
Prior art keywords: polymerization; polymer; process according; zone; gas
Prior art date: 1995-07-20
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.): Expired - Lifetime

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US08/684,411

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English (en)

Inventor

Gabriele Govoni

Roberto Rinaldi

Massimo Covezzi

Paolo Galli

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Basell Poliolefine Italia SRL

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Montell Technology Co BV

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1995-07-20

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1996-07-19

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1997-12-16

1996-07-19 Application filed by Montell Technology Co BV filed Critical Montell Technology Co BV

1996-07-19 Assigned to MONTELL TECHNOLOGY COMPANY BV reassignment MONTELL TECHNOLOGY COMPANY BV ASSIGNMENT OF ASSIGNORS INTEREST (SEE DOCUMENT FOR DETAILS). Assignors: COVEZZI, MASSIMO, GALLI, PEOLO, GOVONI, GABRIELE, RINALDI, ROBERTO

1997-10-03 Priority to US08/943,748 priority Critical patent/US6413477B1/en

1997-12-16 Application granted granted Critical

1997-12-16 Publication of US5698642A publication Critical patent/US5698642A/en

2001-12-14 Priority to US10/016,843 priority patent/US20020061264A1/en

2002-05-22 Assigned to BASELL TECHNOLOGY COMPANY BV reassignment BASELL TECHNOLOGY COMPANY BV CHANGE OF NAME (SEE DOCUMENT FOR DETAILS). Assignors: MONTELL TECHNOLOGY COMPANY BV

2003-03-05 Assigned to BASELL TECHNOLOGY COMPANY BV reassignment BASELL TECHNOLOGY COMPANY BV CHANGE OF NAME (SEE DOCUMENT FOR DETAILS). Assignors: MONTELL TECHNOLOGY COMPANY BV

2003-03-05 Assigned to BASELL POLIOLEFINE ITALIA S.P.A. reassignment BASELL POLIOLEFINE ITALIA S.P.A. ASSIGNMENT OF ASSIGNORS INTEREST (SEE DOCUMENT FOR DETAILS). Assignors: BASELL TECHNOLOGY COMPANY BV

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- C—CHEMISTRY; METALLURGY
- C08—ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
- C08F—MACROMOLECULAR COMPOUNDS OBTAINED BY REACTIONS ONLY INVOLVING CARBON-TO-CARBON UNSATURATED BONDS
- C08F10/00—Homopolymers and copolymers of unsaturated aliphatic hydrocarbons having only one carbon-to-carbon double bond
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01J—CHEMICAL OR PHYSICAL PROCESSES, e.g. CATALYSIS OR COLLOID CHEMISTRY; THEIR RELEVANT APPARATUS
- B01J19/00—Chemical, physical or physico-chemical processes in general; Their relevant apparatus
- B01J19/24—Stationary reactors without moving elements inside
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01J—CHEMICAL OR PHYSICAL PROCESSES, e.g. CATALYSIS OR COLLOID CHEMISTRY; THEIR RELEVANT APPARATUS
- B01J19/00—Chemical, physical or physico-chemical processes in general; Their relevant apparatus
- B01J19/24—Stationary reactors without moving elements inside
- B01J19/2415—Tubular reactors
- B01J19/2435—Loop-type reactors
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01J—CHEMICAL OR PHYSICAL PROCESSES, e.g. CATALYSIS OR COLLOID CHEMISTRY; THEIR RELEVANT APPARATUS
- B01J8/00—Chemical or physical processes in general, conducted in the presence of fluids and solid particles; Apparatus for such processes
- B01J8/18—Chemical or physical processes in general, conducted in the presence of fluids and solid particles; Apparatus for such processes with fluidised particles
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01J—CHEMICAL OR PHYSICAL PROCESSES, e.g. CATALYSIS OR COLLOID CHEMISTRY; THEIR RELEVANT APPARATUS
- B01J8/00—Chemical or physical processes in general, conducted in the presence of fluids and solid particles; Apparatus for such processes
- B01J8/18—Chemical or physical processes in general, conducted in the presence of fluids and solid particles; Apparatus for such processes with fluidised particles
- B01J8/1845—Chemical or physical processes in general, conducted in the presence of fluids and solid particles; Apparatus for such processes with fluidised particles with particles moving upwards while fluidised
- B01J8/1863—Chemical or physical processes in general, conducted in the presence of fluids and solid particles; Apparatus for such processes with fluidised particles with particles moving upwards while fluidised followed by a downward movement outside the reactor and subsequently re-entering it
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01J—CHEMICAL OR PHYSICAL PROCESSES, e.g. CATALYSIS OR COLLOID CHEMISTRY; THEIR RELEVANT APPARATUS
- B01J8/00—Chemical or physical processes in general, conducted in the presence of fluids and solid particles; Apparatus for such processes
- B01J8/18—Chemical or physical processes in general, conducted in the presence of fluids and solid particles; Apparatus for such processes with fluidised particles
- B01J8/24—Chemical or physical processes in general, conducted in the presence of fluids and solid particles; Apparatus for such processes with fluidised particles according to "fluidised-bed" technique
- B01J8/38—Chemical or physical processes in general, conducted in the presence of fluids and solid particles; Apparatus for such processes with fluidised particles according to "fluidised-bed" technique with fluidised bed containing a rotatable device or being subject to rotation or to a circulatory movement, i.e. leaving a vessel and subsequently re-entering it
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01J—CHEMICAL OR PHYSICAL PROCESSES, e.g. CATALYSIS OR COLLOID CHEMISTRY; THEIR RELEVANT APPARATUS
- B01J8/00—Chemical or physical processes in general, conducted in the presence of fluids and solid particles; Apparatus for such processes
- B01J8/18—Chemical or physical processes in general, conducted in the presence of fluids and solid particles; Apparatus for such processes with fluidised particles
- B01J8/24—Chemical or physical processes in general, conducted in the presence of fluids and solid particles; Apparatus for such processes with fluidised particles according to "fluidised-bed" technique
- B01J8/38—Chemical or physical processes in general, conducted in the presence of fluids and solid particles; Apparatus for such processes with fluidised particles according to "fluidised-bed" technique with fluidised bed containing a rotatable device or being subject to rotation or to a circulatory movement, i.e. leaving a vessel and subsequently re-entering it
- B01J8/384—Chemical or physical processes in general, conducted in the presence of fluids and solid particles; Apparatus for such processes with fluidised particles according to "fluidised-bed" technique with fluidised bed containing a rotatable device or being subject to rotation or to a circulatory movement, i.e. leaving a vessel and subsequently re-entering it being subject to a circulatory movement only
- B01J8/388—Chemical or physical processes in general, conducted in the presence of fluids and solid particles; Apparatus for such processes with fluidised particles according to "fluidised-bed" technique with fluidised bed containing a rotatable device or being subject to rotation or to a circulatory movement, i.e. leaving a vessel and subsequently re-entering it being subject to a circulatory movement only externally, i.e. the particles leaving the vessel and subsequently re-entering it
- C—CHEMISTRY; METALLURGY
- C08—ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
- C08F—MACROMOLECULAR COMPOUNDS OBTAINED BY REACTIONS ONLY INVOLVING CARBON-TO-CARBON UNSATURATED BONDS
- C08F2/00—Processes of polymerisation
- C08F2/34—Polymerisation in gaseous state
- C—CHEMISTRY; METALLURGY
- C08—ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
- C08F—MACROMOLECULAR COMPOUNDS OBTAINED BY REACTIONS ONLY INVOLVING CARBON-TO-CARBON UNSATURATED BONDS
- C08F110/00—Homopolymers of unsaturated aliphatic hydrocarbons having only one carbon-to-carbon double bond
- C08F110/04—Monomers containing three or four carbon atoms
- C08F110/06—Propene
- C—CHEMISTRY; METALLURGY
- C08—ORGANIC MACROMOLECULAR COMPOUNDS; THEIR PREPARATION OR CHEMICAL WORKING-UP; COMPOSITIONS BASED THEREON
- C08F—MACROMOLECULAR COMPOUNDS OBTAINED BY REACTIONS ONLY INVOLVING CARBON-TO-CARBON UNSATURATED BONDS
- C08F210/00—Copolymers of unsaturated aliphatic hydrocarbons having only one carbon-to-carbon double bond
- C08F210/16—Copolymers of ethene with alpha-alkenes, e.g. EP rubbers
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10S—TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10S526/00—Synthetic resins or natural rubbers -- part of the class 520 series
- Y10S526/901—Monomer polymerized in vapor state in presence of transition metal containing catalyst

Definitions

the present invention relates to a process for the gas-phase polymerization of olefins carried out in two interconnected polymerization zones, to which one or more ⁇ -olefins CH 2 ⁇ CHR are fed in the presence of a catalyst under polymerization conditions and from which the produced polymer is discharged.
the growing polymer particles flow through a first polymerization zone under fast fluidization conditions, leave said first zone and enter a second polymerization zone through which they flow in a densified form under the action of gravity, leave said second zone and are reintroduced into the first polymerization zone, thus establishing a circulation of polymer between the two polymerization zones.
reaction parameters can be optimized on the basis of the characteristics of the catalyst and of the product and are not limited by the physico-chemical properties of the liquid mixtures of the reaction components (generally including hydrogen as a chain transfer agent);
the polymer is obtained directly from the reactor in the form of dry solid and requires simple operations for removing dissolved monomers and deactivating the catalyst.
the polymer is confined in a vertical cylindrical zone.
the reaction gases exiting the reactor are taken up by a centrifugal compressor, cooled and sent back, together with make-up monomers and appropriate quantities of hydrogen, to the bottom of the bed thorough a distributor. Entrainment of solid in the gas is limited by an appropriate dimensioning of the upper part of the reactor (freeboard, i.e. the space between the bed surface and the gas offtake), where the gas velocity is reduced, and, in some designs, by the interposition of cyclones in the exit gas line.
the flow rate of the circulating gas is set so as to assure a fluidization velocity within an adequate range above the minimum fluidization velocity and below the "transport velocity".
the heat of reaction is removed exclusively by cooling the circulating gas.
the catalyst components are fed in continuously.
the composition of the gas-phase controls the composition of the polymer.
the reactor is operated at constant pressure, normally in the range 1-3 MPa.
the reaction kinetics are controlled by the addition of inert gases.
Fluidized-bed technology has limits, some of which are discussed in detail below.
the maximum fluidization velocity is subject to quite narrow limits (which already entail reactor volumes for disengagement which are equal to or greater than those filled by the fluidized bed).
a limit to the productivity of the reactor (expressed as hourly output per unit reactor cross-section) is inevitably reached, where operation with gas inlet temperatures higher than the dew point of the mixture of the gases is desired.
This limit can lead to reductions in the plant output, in particular in the copolymerization of ethylene with higher ⁇ -olefins (hexene, octene), which is carried out with conventional Ziegler-Natta catalysts, requiring gas compositions rich in such olefins.
a fluidized bed shows a behaviour directly comparable with an ideally mixed reactor (CSTR).
CSTR ideally mixed reactor
polymers of broad molecular weight distribution are obtained by the use of mixtures of different Ziegler-Natta catalysts in a single reactor, each catalyst being prepared so as to give a different response to hydrogen. It is clear that a mixture of granules each with its own individuality are obtained at the exit from the reactor. It is difficult to obtain homogeneity of the product by this route.
polyethylenes of low and very low density LLDPE, VLDPE, modified with higher ⁇ -olefins containing 4 to 8 carbon atoms;
heterophasic copolymers of high impact strength obtained by growth on the active centres of the catalyst, in successive stages, of one or more of the polymers listed above and of ethylene/propylene or ethylene/butene rubbers;
the modulus of flexibility varies from 2300 MPa to values lower than 100 MPa
the xylene-soluble fraction varies from 1% to 80%.
the flowability, compactability and sticking properties turn out to be extremely variable as a function of the degree of crystallinity, of the molecular weight and of the composition of the various polymer phases. Many of these products remain granular and flowable (and hence processible) as long as they are maintained in a fluidized state or in flux, which are conditions under which the static forces between the individual solid particles have no effect.
the most direct solution for the discharge of the polymer from the reactor consists of a direct discharge from the fluidized bed through a controlled valve. This type of discharge combines simplicity with the advantage of not producing stagnant zones. Where a sufficiently low pressure (in the range 0.5-3 bar gauge) is maintained downstream of the discharge valve, the reaction is virtually stopped either by the temperature reduction due to the evaporation of the monomers dissolved in the polymer or due to the low partial pressure of the monomers in the gas: in this way, any risk in the receiver equipment downstream of the reactor is avoided.
Pat. No. 4,621,952 describes a discharge system in which the polymer is transferred intermittently and at high differential pressures from the reactor to a settling tank.
the momentum of the polymer which, during the filling phase, impinges first on the walls of the settling tank and then on the bed of polymer compacts the material which loses its flowability properties.
the pressure in the settling tank rises rapidly to the value of the reactor pressure and the temperature does not change significantly.
the reaction proceeds adiabatically at high kinetics. With soft and sticky products, this easily leads to the formation of agglomerates which cannot be granulated, with consequent difficulties with the discharge to the receiving tank below.
Analogous observations apply to U.S. Pat. No. 4,703,094.
Japanese patent JP-A-58 032,634 provides for the installation of an internal screw in the reactor for compacting the polymer towards the discharge;
U.S. Pat. No. 4,958,006 proposes the installation of an extruder, the screws of which are fed directly in the interior of the fluidized-bed reactor.
the systems proposed are in any case altogether inadequate for feeding the polymer to a subsequent reaction stage.
a novel polymerization process has now been found, and this represents a first aspect of the present invention, which allows olefins to be polymerized in the gas phase with high hourly output per unit reactor volume without incurring the problems of the fluidized-bed technologies of the known state of the art.
a second aspect of the present invention relates to an apparatus for carrying out this process.
the gas-phase polymerization process of the present invention is carried out in a first and in a second interconnected polymerization zones to which one or more ⁇ -olefins CH 2 ⁇ CHR, where R is hydrogen or a hydrocarbon radical having 1-12 carbon atoms, are fed in the presence of catalyst under reaction conditions and from which the polymer produced is discharged.
the process is characterized in that the growing polymer particles flow through the first of said polymerization zones under fast fluidization conditions, leave said first polymerization zone and enter the second of said polymerization zones through which they flow in a densified form under the action of gravity, leave said second polymerization zone and are reintroduced into said first polymerization zone, thus establishing a circulation of polymer between the two polymerization zones.
the state of fast fluidization is obtained when the velocity of the fluidizing gas is higher than the transport velocity, and it is characterized in that the pressure gradient along the direction of transport is a monotonic function of the quantity of injected solid, for equal flow rate and density of the fluidizing gas.
the fluidizing-gas velocity is maintained well below the transport velocity, in order to avoid phenomena of solids entrainment and particle carryover.
transport velocity and fast fluidization state are well known in the art; for a definition thereof, see, for example, "D. Geldart, Gas Fluidization Technology, page 155 et seqq., J. Wiley & Sons Ltd., 1986".
FIG. 1 is a diagrammatic representation of the process according to the invention
FIG. 2 is a diagrammatic representation of a first embodiment of the process according to the invention.
FIG. 3 is a diagrammatic representation of a second embodiment of the process according to the invention.
the growing polymer flows through the first polymerization zone 1 under fast fluidization conditions along the direction of the arrow 14; in the second polymerization zone 2, the growing polymer flows in a densified form under the action of gravity along the direction of the arrow 14'.
the two polymerization zones 1 and 2 are appropriately interconnected by the sections 3 and 5. The material balance is maintained by feeding in monomers and catalysts and discharging polymer.
the condition of fast fluidization in the first polymerization zone 1 is established by feeding a gas mixture comprising one or more ⁇ -olefins CH 2 ⁇ CHR (line 10) to said zone 1; preferably, the feeding of the gas mixture is effected below the point of reintroduction of the polymer into said first zone 1 by the use, where appropriate, of gas distributor means, such as, for example, a distributor grid.
gas distributor means such as, for example, a distributor grid.
the velocity of the transport gas into the first polymerization zone is higher than the transport velocity under the operating conditions and is preferably between 2 and 15 m/s, more preferably between 3 and 8 m/s.
control of the polymer circulating between the two polymerization zones can be effected by metering the amount of polymer leaving the second polymerization zone 2, using means suitable for controlling the flow of solids, such as, for example, mechanical valves (slide valve, V-ball valve, etc.) or non-mechanical valves (L valve, J valve, reverse seal, etc.).
the polymer and the gaseous mixture leaving the first polymerization zone 1 are conveyed to a solid/gas separation zone 4.
the solid/gas separation can be effected by using conventional separation means such as, for example, a separator of the inertial type or preferably centrifugal type, or a combination of the two.
the centrifugal separator (cyclone) can be of the axial, spiral, helical or tangential type.
the polymer From the separation zone 4, the polymer enters the second polymerization zone 2.
the gaseous mixture leaving the separation zone 4 is compressed, cooled and transferred, if appropriate with addition of make-up monomers and/or molecular weight regulators, to the first polymerization zone 1.
This transfer can be effected by means of a recycle line 6 for the gaseous mixture, equipped with means for the compression 7 and cooling 8 and means for feeding in the monomers and the molecular weight regulator 13.
a part of the gaseous mixture leaving the separation zone 4 can be transferred, after having been compressed, to the connection zone 5 via the line 9, in order to facilitate the transfer of polymer from the second to the first polymerization zone.
the various catalyst components are fed to the first polymerization zone 1, at any point of said first polymerization zone 1. However, they can also be fed at any point of said second polymerization zone 2.
Any type of catalyst used in the polymerization of olefins can be used in the process of the present invention, since it is not important for it to be in any particular physical state, and catalysts in either solid or liquid form can be used, because, in contrast to the gas-phase processes of the known state of the art, the process of the present invention does not necessarily require the use of catalysts in which at least one component is in a granular form, but can be carried out with catalysts in which the various components are in solution.
catalysts based on titanium, chromium, vanadium or zirconium can be used either in supported or unsupported form. Examples of catalysts which can be used are described in the patents U.S. Pat. Nos. 4,748,272, U.S. Pat. No. 4,302,56, U.S. Pat. No. 4,472,520 and U.S. Pat. No. 4,218,339.
catalysts of controlled morphology which are described in the patents U.S. Pat. No. 4,399,054, U.S. Pat. No. 5,139,985, EP-395,083, EP-553,805, EP-553,806 and EP-601,525, and in general catalysts capable of giving polymers in the form of spheroidal particles having a mean dimension between 0.2 and 5 mm, preferably between 0.5 and 3 mm.
the process of the present invention is moreover particularly suitable for the use of metallocene catalysts, either in solution or supported.
the various catalyst components can be introduced at the same point or at different points of the first polymerization zone.
the catalyst can be fed in without prior treatment or in a prepolymerized form. Where other polymerization stages are situated upstream, it is also possible to feed the polymerization zones with a catalyst dispersed in a polymer suspension coming from an upstream bulk reactor, or a catalyst dispersed in a dry polymer coming from an upstream gas-phase reactor.
the polymer concentration in the reactive zones can be monitored by the usual methods known in the state of the art, for example by measuring the differential pressure between two suitable points along the axis of the polymerization zones or measuring the density by nuclear detectors (for example ⁇ -rays).
the operating parameters such as, for example, the temperature are those that are usual in gas-phase olefin polymerization processes, for example between 50° C. and 120° C.
each reaction zone can be designed as a cylindrical reactor of high aspect ratio (height/diameter ratio). From the point of view of construction, this particular reactor geometry allows the adoption of high operating pressures, which are not economical in conventional fluidized-bed reactors.
the process according to the present invention can thus be carried out under operating pressures of between 0.5 and 10 MPa, preferably between 1.5 and 6 MPa.
the consequent high gas density favours both the heat exchange on a single particle and the overall removal of the heat of reaction. It is therefore possible to choose operating conditions which enhance the reaction kinetics.
the reactor through which the polymer flows under fast fluidization conditions can run completely full at polymer concentrations which can reach or exceed 200 kg/m 3 .
the process of the present invention makes it possible to obtain specific productivities (hourly output per unit volume of the reactor) which are much higher than the levels obtainable with conventional fluidized-bed technology. It is thus possible to equal or even to exceed the catalytic yields of conventional gas-phase processes, using polymerization equipment of much more limited dimensions, with a significant saving in the construction cost of the plant.
the entrainment of solids in the gas recycle line at the exit from the solid/gas separation zone and the possible presence of liquids exiting the cooler on the same line do not limit the efficiency of the first polymerization zone.
gas distributor means such as, for example, a grid
the transport gas velocities in the plenum below the grid are still high and such as to ensure the entrainment of droplets of even considerable dimensions and of wetted polymer, without stagnant points. Given that the transport gas comes into contact with the stream of hot polymer arriving from the second polymerization zone, the vaporization of any liquid is virtually instantaneous.
the process of the invention opens a new way to the removal of the heat of reaction.
the characteristic geometry (high surface/volume ratio) of the polymerization zone with fast fluidization makes a significant external surface area available for direct heat exchange on this zone (and hence with maximum heat transfer between cooling liquid and reaction system).
the first polymerization zone can thus be advantageously cooled with external cooling means.
the high turbulence connected with the fast fluidization conditions and a high gas density assure in every case a very high heat transfer coefficient. Any condensation on the internal walls is continuously removed by the strong radial and axial mixing of the polymer due to the fast fluidization conditions.
this characteristic makes the proposed technology suitable for operation as a second stage fed directly from an upstream bulk reactor. It is also possible to feed part of the make-up monomers in a condensed form without any difficulty.
one or more inert gases are maintained in the polymerization zones, in such quantities that the sum of the partial pressures of the inert gases is preferably between 5 and 80% of the total pressure of the gases.
the inert gas can be nitrogen or an aliphatic hydrocarbon having 2-6 carbon atoms, preferably propane.
the presence of the inert gas has numerous advantages, for it makes it possible to moderate the reaction kinetics while at the same time maintaining total reaction pressures which are sufficient to keep low the head of the circulation compressor and to assure an adequate mass flow rate for the heat exchange on the particle in the bed and, through the cooler on the circulating gaseous mixture, for the removal of the heat of reaction which has not been removed by the surfaces.
the presence of the inert gas has further advantages, inasmuch as it makes it possible to limit the temperature increase in the second polymerization zone, which runs in an essentially adiabatic mode, and also makes it possible to control the breadth of the molecular weight distribution of the polymer, particularly in the polymerization of ethylene.
the polymer flows vertically down through the second polymerization zone in plug flow (packed flow mode), surrounded by limited quantities of entrained gas.
the molecular weight of the polymer in ethylene polymerization is controlled by the hydrogen/ethylene ratio in the gas phase and, to a lesser extent, by the temperature.
the mechanism described above can be restricted or avoided by proper selection of the reaction conditions, for example by limiting the amount of inert gas or feeding an appropriate quantity of reaction gas and/or make-up monomer(s) at suitable positions in the second polymerization zone.
the gas to be fed to the second polymerization zone can be taken from the gaseous mixture leaving the solid/gas separation zone, after this has been compressed.
the quantity of gas introduced is preferably fixed within values such that the relative velocity of the injected gas with respect to the flowing solid velocity, is kept below the minimum fluidization velocity characteristic of the solid/gas system present in said second polymerization zone. Under these conditions, the downward flow of polymer is substantially not disturbed.
the operational flexibility of the process of the invention is therefore total, the production of polymers of different molecular weight distribution being controllable by the gas composition and, if needed, by simple closing or opening of a valve on a gas line.
the polymer can be discharged from zones where the solids density is higher, for example from suitable points in the second polymerization zone where large amounts of densified flowing polymer are available, in order to minimise the quantity of entrained gas.
the amount of gas accompanying the polymer is extremely small and only slightly greater than can be achieved by the device of interposing a series of hoppers in alternating intermittent operation. In this way, all the limitations of the discharge systems of the known state of the art are overcome, with respect to both the quantity of entrained gas and the nature of the discharged products.
the process of the present invention can be combined with the conventional technologies in a sequential multi-stage process in which, upstream or downstream of a polymerization section operated according to the present invention, there are one or more polymerization stages using conventional technologies (in bulk or in the gas phase, either in a fluidized bed or a stirred bed). Multi-stage processes, wherein two or more stages are carried out with the procedure of the present invention, are also possible.
the second polymerization zone consists of a first and a second section.
a fluidized bed is maintained by appropriately feeding and distributing gases; in the second section, appropriately connected to the first one, the polymer flows in densified form by gravity.
the polymer is reintroduced into the first polymerization zone, maintaining the loop circulation.
the various zones With an appropriate dimensioning of the various zones, it becomes possible to achieve a braodening of the molecular weight distribution of the polymer, while retaining all the advantages described above.
the above example is only one of the possible embodiments of the process of the invention, which, in its general definition, comprises at least a fast fluidization zone interconnected with a zone where the polymer flows in densified form by gravity.
the process of the present invention is applicable to the preparation of a large number of olefin polymers without the disadvantages described above.
Examples of polymers which can be obtained are:
HDPEs high-density polyethylenes
ethylene homopolymers and ethylene copolymers with ⁇ -olefins having 3 to 12 carbon atoms
⁇ -olefins having 3 to 12 carbon atoms
linear polyethylenes of low density LLDPEs having relative densities lower than 0.940
VLDPEs and ULDPEs having relative densities lower than 0.920 down to 0.880
ethylene copolymers with one or more ⁇ -olefins having 3 to 12 carbon atoms consisting of ethylene copolymers with one or more ⁇ -olefins having 3 to 12 carbon atoms;
elastomeric terpolymers of ethylene and propylene with minor proportions of diene or elastomeric copolymers of ethylene and propylene with a content of units derived from ethylene of between about 30 and 70% by weight;
heterophasic propylene polymers obtained by sequential polymerization of propylene and mixtures of propylene with ethylene and/or other ⁇ -olefins;
poly- ⁇ -olefins such as, e.g., poly-1-butene, poly-4-methyl-1-pentene;
a further aspect of the present invention relates to an apparatus for the gas-phase polymerization of ⁇ -olefins.
the apparatus of the invention comprises a first vertical cylindrical reactor 20 equipped with a catalyst feedline 34, and a second vertical cylindrical reactor 30 equipped with a polymer discharge system 23, and is characterized in that: the upper region of the first reactor 20 is connected by a first line 21 to a solid/gas separator 22 which in turn is connected to the upper region of the second reactor 30; the lower region of the second reactor 30 is connected by a second line 31 to the lower region of the first reactor 20; and the solid/gas separator 22 is connected by means of a recycle line for the gaseous mixture 36 to the first reactor 20 in a region 37 at the bottom of said first reactor 20 below the point of entry of the second line 31.
the first reactor 20 is equipped with gas distributor means 33, for example a grid, located between the point of entry of the second line 31 and the region 37 at the bottom of this reactor.
the gas distributor means in the first reactor 60 can be replaced by a cylindrical line 65, through which the gas flows at high velocity and which is connected to the reactor 60 by a frustoconical section 62 whose angle of inclination to the vertical is preferably smaller than 45° and more preferably between 30° and 10°.
both the catalyst (thorough line 66) and the polymer coming from the second reactor 70 through the line 77 can be conveyed through this frustoconical connection.
a first valve 24 for controlling the polymer flow rate is generally inserted between the second reactor 30 and the second line 31.
This valve 24 can be either of the mechanical or of the non-mechanical type.
some or all the components of the catalyst can advantageously be injected via a third line 32 into said first reactor 20 at a point above the gas distributor means.
the recycle line for the gaseous mixture 36 is equipped with a compressor 26, a cooling system 27 and systems for introducing, together or separated, monomers 28 and molecular weight regulator 29.
Two cooling systems, one upstream and one downstream the compressor, can be present.
the first line 21 leaves the upper region of the first reactor laterally, it having been observed that a lateral exit of the solid/gas mixture from the first reactor 20 contributes in a substantial way to the dynamic stability of the entire reaction system.
the upper region of the first reactor 20 can have a cylindrical shape with a diameter equal to that of the reactor or preferably can be of frustoconical geometry with the broad end uppermost.
the first line 21 can be horizontal or have a slope in the direction of gravity in order to facilitate discharge of polymer (see the configuration of the line 71 in FIG. 3).
the second line 31 can appropriately be inclined downwards and can be connected (at a point immediately downstream of the first valve 24) via a line 25 to the gas recirculation line 36 at a point downstream of the compressor 26. In this way, the flow of polymer is assisted by the stream of gas under pressure coming from the recycle line, avoiding stagnant zones of polymer in the line itself and at the point of introduction into the reactor 20.
the system of connection between the lower regions of the reactors can also be of the type described in FIG. 3, in which the circulation of the polymer is obtained by a pneumatic L valve 74 operated by the gas taken from the recycle line through the line 75.
the L valve is connected to a line 77 which leads into the first reactor 60, said line 77 being connected via the line 76 to the recycle line 81. Through this line, the polymer is carried back to the interior of the reactor 60 by an appropriate stream of gas coming from the line 76.
the first reactor 20 can advantageously be equipped with external cooling means 35, such as wall heat exchangers.
external cooling means 35 such as wall heat exchangers.
20 represents the first reactor operating under fast fluidization conditions and 30 represents the second reactor through which the polymer flows in a densified form under the action of gravity;
21 and 31 are lines connecting the upper and lower regions of the two reactors;
34 is the catalyst feedline;
22 is a solid/gas separator;
23 is a polymer discharge system;
36 is the recycle line for the gaseous mixture which connects said separator to a region 37 at the bottom of the first reactor;
24 is a control valve for controlling the polymer flow rate;
33 is a gas distributor device;
32 is a line for feeding the catalyst;
26 is a compressor and 27 is a cooling system for the recycling gas mixture;
28 and 29 are systems for feeding monomers and molecular weight regulator;
25 is a line which connects the recycle line 36 to the line 31;
35 is the external cooling system of the first reactor 20.
Polymerizations were carried out in continuous in a plant which comprised a precontacting section, where the various catalyst component were premixed, a prepolymerization section, and a gas-phase polymerization section carried out in a reactor of the type described in FIG. 2.
a solid catalyst component prepared according to the procedure described in Example 3 of EP-A-395083, triethylaluminum (TEAL) and a silane compound were precontacted in hexane at 10° C. for 10 minutes in the precontacting vessel.
the activated catalyst was fed to the prepolymerization section were propylene was polymerized in slurry using propane as dispersing medium. Monomer feed and residence time were adjusted so as to obtain the desired prepolymerization yields, in terms of g of polymer per g of solid catalyst component.
the prepolymer was continuously fed to the gas phase polymerization apparatus.
the apparatus which is described with reference to FIG. 2, consisted of two cylindrical reactors 20 and 30, connected by pipes 21 and 31.
Reactor 20 was equipped with a heat exchanger 35.
Fast fluidization in the reactor 20 was achieved by recycling gas from the gas/solid separator 22 to the bottom of the reactor 20, via the gas-recycle line 36.
No gas-distribution means were used, the recycle gases being directly fed to a region 37 at the bottom of the reactor 20, below the point of entry of pipe 31.
the gas-recycle line was equipped with a compressor 26 and a heat exchanger 27.
the prepolymer slurry reactor was fed to the reactor 20 at a point immediately above the point of entry of pipe 31.
Circulation of polymer was controlled via a L valve 24 operated by a stream of gas 25 taken from the recycle line 36. Make-up monomers were fed to the recycle line 36. The polymer produced was continuously discharged from the reactor 30, via pipe 23. Total volume of the apparatus (i.e. reactors 20 and 30 plus connection zones 21 and 31) was 250 1.
Polypropylene was prepared using a catalyst comprising dicyclopentyl-dimethoxy-silane (DCPMS) as silane compound.
DCPMS dicyclopentyl-dimethoxy-silane
propane was used as inert gas.
Hexene-modified LLDPE was prepared using a catalyst comprising cyclohexyl-methyl-dimethoxy-silane (CMMS) as silane compound.
CMMS cyclohexyl-methyl-dimethoxy-silane
propane was used as inert gas.
the above reported temperature was measured at top of the reactor 30.
the dew point of the gaseous mixture at the operating pressure is 66° C.
Cooling fluid was circulated in the heat exchanger 35 in such a way to obtain a temperature of 63° C. on the surface of reactor 20. Under these conditions, the gaseous mixture partially condensed on the wall of the reactor, thus contributing to remove the heat of reaction. No problems of fouling occurred during operation.

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US08/943,748 US6413477B1 (en)	1995-07-20	1997-10-03	Process and apparatus for the gas-phase polymerization of α-olefins
US10/016,843 US20020061264A1 (en)	1995-07-20	2001-12-14	Process and apparatus for the gas-phase polymerization of alpha-olefins

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ITMI951562A IT1275573B (it)	1995-07-20	1995-07-20	Processo ed apparecchiatura per la pomimerizzazione in fase gas delle alfa-olefine

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US08/943,748 Expired - Lifetime US6413477B1 (en)	1995-07-20	1997-10-03	Process and apparatus for the gas-phase polymerization of α-olefins
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US6413477B1 (en)	2002-07-02
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ATE176914T1 (de)	1999-03-15
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MXPA97002102A (en)	1997-08-01	Procedure and apparatus for alfa-olefi gaseous phase polymerization
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KR100537596B1 (ko)	2005-12-19	중합방법
IE59795B1 (en)	1994-04-06	Fluidized bed reaction systems
EP1549687B1 (fr)	2011-04-20	Procede de polymerisation
US20050182207A1 (en)	2005-08-18	Gas-phase process
KR100999551B1 (ko)	2010-12-08	알파-올레핀의 기상중합 방법
JP2007526372A (ja)	2007-09-13	重合工程においてポリマーの流量を制御する方法
KR100427837B1 (ko)	2004-09-08	중합화방법
AU719107C (en)	2001-02-01	Process and apparatus for the gas-phase polymerization of alpha-olefins

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